WaterWorks - Philosophy of Life

Understanding Weather through the Living Equation

Understanding Weather through the Living Equation

We can understand the weather,
Through the living equation as,

Entity = (2 x stable gravity of entity) / ([size or l x b x w] x [velocity x energy])

Where,

Entity = weather

2 x stable gravity = supply lines x heat spheres

Supply lines = fields of magnetic, electric, electromagnetic and gravitational forces, sunlight, wind

Heat spheres = domains like stratosphere and troposphere

Size = pressure matrix

Velocity = temperature seeding (seeding is the degrees of freedom)

Energy = chemicals or chemical precursor or chemical recycling compounds or preserving molecules

We can get a weather equation as,

Weather = (supply lines x heat spheres) / (pressure matrix x temperature seeding x chemical)

We can find levels of weather,
When the supply lines of heat spheres,
Remain constant as,
Pressure matrix of temperature seeding of chemical,
Pressure matrix of chemical of temperature seeding,
Temperature seeding of pressure matrix of chemicals,
Temperature seeding of chemicals of pressure matrix,
Chemicals of pressure matrix of temperature seeding,
Chemicals of temperature seeding of pressure matrix.

We can arrange these into priority as,
1st weather = pressure matrix of temperature seeding of chemical; organization; gradients; latitudes
2nd weather = pressure matrix of chemical of temperature seeding; network; streams; longitudes;
3rd weather = temperature seeding of pressure matrix of chemicals; directions; predictions; vector
4th weather = temperature seeding of chemicals of pressure matrix; constancy; average
5th weather = chemicals of pressure matrix of temperature seeding; abundance; collections; magnitude
6th weather = chemicals of temperature seeding of pressure matrix; position; coordinate; drainage

We can set equations as,
Gradients = (free pressure matrix x temperature seeding) / chemical = latitude = organization
Network = (free pressure matrix x chemical) / temperature seeding = longitude = streams
Predictions = (free temperature seeding x pressure matrix) / chemicals = vectors = directions
Constancy = (temperature seeding x free chemicals) / pressure matrix = scalar = average
Abundance = (free chemicals x pressure matrix) / temperature seeding = magnitude = collections
Position = (chemicals x free temperature seeding) / pressure matrix = co-ordinate = drainage

We can get a supply lines equation as,

Supply lines = (pressure matrix x temperature seeding x chemical x weather) / heat spheres

When supply lines increase,
Then heat spheres decrease,
And vice versa,
If the pressure matrix of temperature seeding,
And the chemical of the weather,
Remain constant.

We can get a heat spheres equation as,

Heat spheres = (pressure matrix x temperature seeding x chemical x weather) / supply lines

When heat spheres increase,
Then supply lines decrease,
And vice versa,
If the pressure matrix of temperature seeding,
And the chemical of the weather,
Remain constant.

We can get a pressure matrix equation as,

Pressure matrix = (supply lines x heat spheres) / (temperature seeding x chemical x weather)

We can get levels of pressure matrix,
When the supply lines of heat spheres,
Remain constant as,
Temperature seeding of chemical of weather,
Temperature seeding of weather of chemical,
Chemical of temperature seeding of weather,
Chemical of weather of temperature seeding,
Weather of temperature seeding of chemical,
Weather of chemical of temperature seeding.

We can arrange these into priority as,
1st pressure matrix = weather of temperature seeding of chemical; integration; balance
2nd pressure matrix = weather of chemical of temperature seeding; addition; movement
3rd pressure matrix = temperature seeding of weather of chemical; multiplication; acceleration
4th pressure matrix = temperature seeding of chemical of weather; subtraction; containment
5th pressure matrix = chemical of weather of temperature seeding; differentiation; origination
6th pressure matrix = chemical of temperature seeding of weather; division; hinge

We can arrange these into equations as,
Balance = (free weather x temperature seeding) / chemical = integration
Movement = (free weather x chemical) / temperature seeding = addition
Acceleration = (free temperature seeding x weather) / chemical = multiplication
Containment = (free temperature seeding x chemical) / weather = subtraction
Origination = (free chemical x weather) / temperature seeding = differentiation
Hinge = (free chemical x temperature seeding) / weather = division

We can get a temperature seeding equation as,

Temperature seeding = (supply lines x heat spheres) / (pressure matrix x chemical x weather)

We can get levels of temperature seeding as,
Pressure matrix of chemical of weather,
Pressure matrix of weather of chemical,
Chemical of pressure matrix of weather,
Chemical of weather of pressure matrix,
Weather of pressure matrix of chemical,
Weather of chemical of pressure matrix.

We can arrange these into priority as,
1st temperature seeding = weather of pressure matrix of chemical; precursor
2nd temperature seeding = weather of chemical of pressure matrix; centrality
3rd temperature seeding = pressure matrix of weather of chemical; power
4th temperature seeding = pressure matrix of chemical of weather; storage
5th temperature seeding = chemical of weather of pressure matrix; importance
6th temperature seeding = chemical of pressure matrix of weather, fundamental

We can get equations as,
Precursor = (free weather x pressure matrix) / chemical
Centrality = (free weather x chemical) / pressure matrix
Power = (free pressure matrix x weather) / chemical
Storage = (free pressure matrix x chemical) / weather
Importance = (free chemical x weather) / pressure matrix
Fundamental = (free chemical x pressure matrix) / weather

We can get a chemical equation as,

Chemical = (supply lines x heat spheres) / (pressure matrix x temperature seeding x weather)

We can know levels of chemicals as,
Pressure matrix of temperature seeding of weather,
Pressure matrix of weather of temperature seeding,
Temperature seeding of pressure matrix of weather,
Temperature seeding of weather of pressure matrix,
Weather of pressure matrix of temperature seeding,
Weather of temperature seeding of pressure matrix.

We can arrange these into priority as,
1st chemicals = weather of pressure matrix of temperature seeding; equilibrium
2nd chemicals = weather of temperature seeding of pressure matrix; need
3rd chemicals = pressure matrix of weather of temperature seeding; safety
4th chemicals = pressure matrix of temperature seeding of weather; preservation
5th chemicals = temperature seeding of weather of pressure matrix; alignment
6th chemicals = temperature seeding of pressure matrix of weather; regulation

We can get equations as,
Equilibrium = (free weather x pressure matrix) / temperature seeding
Need = (free weather x temperature seeding) / pressure matrix
Safety = (free pressure matrix x weather) / temperature seeding
Preservation = (free pressure matrix x temperature seeding) / weather
Alignment = (free temperature seeding x weather) / pressure matrix
Regulation = (free temperature seeding x pressure matrix) / weather

When selected equations,
From the whole weather equation,
Are aligned,
We can make better understandings,
Of the weather,
Through the living equation.

There are ‘controls’ of weather,
That can be used,
By adapting the equations,
Gradients of weather,
Hinge of pressure matrix,
Centrality of temperature seeding,
Regulation of chemicals.

A ‘map’ of the weather,
Can be seen through the equations,
Network of the weather,
Movement of the pressure matrix,
Fundamentals of temperature seeding,
Alignment of chemicals.

The ‘evolution’ or changes,
In the weather can be known,
By using the equations,
Positions of the weather,
Balance of the pressure matrix,
Precursor of the temperature seeding,
Need of chemicals.

The ‘stability’ of the weather,
Can be seen by using the equations,
Constancy of the weather,
Containment of the pressure matrix,
Storage of the temperature seeding,
Equilibrium of the chemicals.

The ‘longevity’ of the weather,
Can be known by using the equations,
Abundance of the weather,
Acceleration of the pressure matrix,
Importance of the temperature seeding,
Preservation of the chemicals.

The ‘dangers’ of the weather,
Can be seen by using the equations,
Predications of the weather,
Originations of the pressure matrix,
Power of the temperature seeding,
Safety of chemicals.

The pressure matrixes,
May be more dangerous,
In gravity situations,
Like earthquakes,
Volcano eruptions,
And meteor storms.

Chemicals that may help longevity,
In this World,
Are carbon, oxygen and nitrogen,
And these are important chemicals,
For recycling, preserving,
And controlling the weather,
For stability and mapping.

The symbiosis and amalgamation,
Of other chemicals,
Will cause evolution or change,
To the weather,
That may deviate from its constancy,
Balance, equilibrium and predictability.

These are some wisdoms,
‘Truths’ and logics,
Of the weather,
And they can help us survive,
Maintain health, stability,
Order, peace, understanding,
Prosperity, ease, happiness,
Hope and care for a better World.

It is the understanding,
And home of life.

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